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Download chapter 18 notes for eighth grade physical science
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Transcript
CHAPTER 18 NOTES FOR EIGHTH GRADE PHYSICAL SCIENCE ANY MATERIAL THAT ATTRACTS IRON OR MATERIALS CONTAINING IRON IS CALLED A MAGNET. ALL MAGNETS HAVE TWO POLES, EXERT FORCES, AND ARE SURROUNDED BY A MAGNETIC FIELD. THE MAGNETIC EFFECTS ARE STRONGEST NEAR THE ENDS OF THE BAR MAGNET. THE PARTS OF A MAGNET WHERE THE MAGNETIC EFFECTS ARE STRONGEST ARE CALLED POLES. A NATURAL MAGNET IS CALLED A LODESTONE. MAGNETIC P0LES ALWAYS OCCUR IN PAIRS; YOU WILL NEVER FIND A MAGNET WITH ONLY A NORTH POLE OR ONLY A SOUTH POLE. THE FORCE OF REPULSION OR ATTRACTION BETWEEN THE POLES OF MAGNETS IS CALLED THE MAGNETIC FORCE. MAGNETIC FIELD LINES AROUND A MAGNET ARE CLOSEST TOGETHER AT THE POLES, SHOWING THE MAGNETIC FORCE IS STRONGEST AT THESE TWO PLACES. MOVING ELECTRONS PRODUCE MAGNETIC FIELDS THAT CAN GIVE AN ATOM A NORTH AND A SOUTH POLE. IN MOST MATERIALS, SUCH AS COPPER AND ALUMINUM, THE MAGNETIC FIELDS OF THE INDIVIDUAL ATOMS CANCEL EACH OTHER OUT, SO THE MATERIALS AREN'T MAGNETIC. HOWEVER IN MATERIALS LIKE IRON, NICKEL, AND COBALT, THE ATOMS GROUP TOGETHER IN TINY REGIONS CALLED DOMAINS. DOMAINS ARE LIKE TINY MAGNETS WITHIN AN OBJECT. DROPPING A MAGNET OR STRIKING IT TOO HARD CAN JOSTLE THE DOMAINS OUT OF ALIGNMENT, CAUSING THE MAGNET TO LOSE IT MAGNETIC PROPERTIES. INCREASING THE TEMPERATURE OF A MAGNET CAN ALSO DEMAGNETIZE IT. WHEN YOU CUT A MAGNET IN HALF, YOU END UP WITH TWO MAGNETS, EACH WITH ITS OWN NORTH POLE AND SOUTH POLE. MAGNETS MADE OF IRON, NICKEL, COBALT, OR ALLOYS OF THESE METALS ARE CALLED FERROMAGNETS. AN ELECTROMAGNET IS A MAGNET, USUALLY WITH AN IRON CORE, PRODUCED BY AN ELECTRIC CURRENT. TEMPORARY MAGNETS ARE MADE FROM MATERIALS THAT ARE EASY TO MAGNETIZE BUT TEND TO LOSE THEIR MAGNETIZATION EASILY. PERMANENT MAGNETS ARE DIFFICULT TO MAGNETIZE BUT TEND TO RETAIN THEIR MAGNETIC PROPERTIES BETTER.. STRONG PERMANENT MAGNETS ARE MADE WITH ALNICO - AN ALLOY OF ALUMINUM, NICKEL, AND COBALT. THE PROCESS BY WHICH A MATERIAL IS MADE INTO A MAGNET BY STROKING IT IS CALLED MAGNETIC INDUCTION. THE EARTH'S GEOGRAPHIC POLES ARE ON THE AXIS ON WHICH THE EARTH ROTATES. EARTH'S MAGNETIC POLES ARE THE POINTS ON EARTH'S SURFACE WHERE ITS MAGNETIC FORCES ARE THE STRONGEST. THE MAGNETIC NORTH POLE IS LOCATED IN NORTHEASTERN CANADA, ABOUT 1600 KILOMETERS FROM THE GEOGRAPHIC NORTH POLE. THE MAGNETIC SOUTH POLE IS LOCATED NEAR THE ANTARCTIC CIRCLE. THE ERROR IN A COMPASS CAUSED BY THE DIFFERENCE IN LOCATION OF THE EARTH'S MAGNETIC AND GEOGRAPHIC POLES IS CALLED MAGNETIC VARIATION. FROM TIME TO TIME THE NORTH AND SOUTH MAGNETIC POLES CHANGE PLACES. AT LEAST NINE OF THESE REVERSALS HAVE OCCURED IN THE LAST 3.5 MILLION YEARS. THE MAGNETIC POLE OF EARTH THAT IS CLOSEST TO THE GEOGRAPHIC NORTH POLE IS ACTUALLY A MAGNETIC SOUTH POLE! SO A COMPASS NEEDLE POINTS TO THE NORTH BECAUSE ITS NORTH POLE IS ATTRACTED TO A VERY LARGE MAGNETIC SOUTH POLE. ONE OF THE MOST SPECTACULAR EFFECTS CAUSED BY THE EARTH'S MAGNETIC FIELD IS A CURTAIN OF LIGHT CALLED AN AURORA. AN AURORA IS FORMED WHEN CHARGED PARTICLES FROM THE SUN INTERACT WITH OXYGEN AND NITROGEN ATOMS IN EARTH'S ATMOSPHERE. WHEN CHARGED PARTICLES FROM THE SUN STRIKE THESE ATOMS, THE ATOMS EMIT LIGHT OF DIFFERENT COLORS. AUROAS ARE MOST OFTEN SEEN IN AREAS NEAR THE NORTH AND SOUTH MAGNETIC POLES. AURORAS SEEN NEAR THE NORTH MAGNETIC POLE ARE CALLED AURORA BOREALIS OR NORTHERN LIGHTS. AURORAS SEEN NEAR THE SOUTH MAGNETIC POLE ARE CALLED AURORA AUSTRALIS OR SOUTHERN LIGHTS. ENGINEERS HAVE DEVELOPED TRAINS THAT HAVE NO WHEELS AND ACTUALLY FLOAT ABOVE THE TRACK. THESE TRAINS ARE ABLE TO LEVITATE BECAUSE OF MAGNETIC FORCES BETWEEN THE TRACK AND THE TRAIN CARS. SUCH TRAINS ARE CALLED MAGLEV TRAINS. THE NAME MAGLEV IS SHORT FOR MAGNETIC LEVITATION. FROM HIS EXPERIMENTS, OERSTAD CONCLUDED THAT AN ELECTRIC CURRENT PRODUCES A MAGNETIC FIELD AND THAT THE DIRECTION OF THE MAGNETIC FIELD DEPENDS ON THE DIRECTION OF THE CURRENT. ELECTROMAGNETISM IS THE INTERACTION BETWEEN ELECTRICITY AND MAGNETISM. A SOLENOID IS A COIL OF WIRE THAT PRODUCES A MAGNETIC FIELD WHEN CARRYING AN ELECTRIC CURRENT. THE STRENGTH OF THE MAGNETIC FIELD PRODUCED BY A SOLENOID INCREASES AS MORE LOOPS ARE ADDED AND AS THE CURRENT IN THE WIRE IS INCREASED. AN ELECTROMAGNET IS A MAGNET THAT CONSISTES OF A SOLENOID WRAPPED AROUND AN IRON CORE. THE STRENGTH OF AN ELECTROMAGNET CAN BE MADE EVEN STRONGER BY INCREASING THE NUMBER OF LOOPS IN THE SOLENOID, BY INCREASING THE SIZE OF THE IRON CORE, AND BY INCREASING THE ELECTRIC CURRENT IN THE WIRE. AN ELECTRIC CURRENT IN THE SOLENOID OF A DOORBELL RPODUCES A MAGNETIC FIELD. THIS FIELD PULLS THE IRON ROD THROUGH THE SOLENOID, AND THE ROD STRIKES. THE BELL. AN ELECTRIC MOTOR IS A DEVICE THAT CHANGES ELECTRICAL ENERGY INTO KINETIC ENERGY. ALL ELECTRIC MOTORS HAVE AN ARMATURE-A LOOP OR COIL OF WIRE THAT CAN ROTATE. THE ARMATURE IS MOUNTED BETWEEN THE POLES OF A PERMANENT MAGNET OR ELECTROMAGNET. IN ELECTRIC MOTORS THAT USE DIRECT CURRENT, A DEVICE CALLED A COMMUTATOR IS ATTACHED TO THE ARMATURE TO REVERSE THE DIRECTION OF THE ELECTRIC CUKRRENT IN THE WIRE. A GALVANOMETER IS A DEVICE USED TO MEASURE CURRENT THROUGH THE INTERACTION OF AN ELECTROMAGNET AND A PERMANENT MAGNET. THE PROCESS BY WHICH AN ELECTRIC CURRENT IS PRODUCED BY CHANGING MAGNETIC FIELD IS CALLED ELECTROMAGNETIC INDUCTION. AN ELECTRIC CURRENT COULD BE INDUCED BY MOVING A MAGNET IN A COIL OF WIRE OR BY MOVING A WIRE BETWEEN THE POLES OF A MAGNET. A GENERATOR IS A DEVICE THAT USES ELECTROMAGNETIC INDUCTION TO CONVERT KINETIC ENERGY INTO ELECTRICAL ENERGY. HOW A GENERATOR WORKS: 1. AS THE CRANK IS TURNED, THE ROTATING COIL CUTS THROUGH THE MAGNETIC FIELD LINES OF THE MAGNET, AND ELECTRIC CURRENT IS INDUCED IN THE WIRE. 2. WHEN THE COIL IS NOT CUTTING THROUGH THE MAGNETIC FIELD LINES, NO ELECTRIC CURRENT IS INDUCED. 3. AS THE COIL CONTINUES TO ROTATE, THE MAGNETIC FIELD LINES ARE CUT FROM A DIFFERENT DIRECTION, AND AN ELECTRIC CURRENT IS INDUCED IN THE OPPOSITE DIRECTION. A TRANSFORMER INCREASES OR DECREASES THE VOLTAGE OF AN ALERNATING CURRENT. IF A TRANSFORMER INCREASES VOLTAGE, IT IS A STEP-UP TRANSFORMER. IF A TRANSFORMER DECREASES VOLTAGE, IT IS A STEP-DOWN TRANFORMER.
